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- %% @author Seth Falcon <seth@userprimary.net>
- %% @copyright 2011-2013 Seth Falcon
- %% @doc This is the main interface to the pooler application
- %%
- %% To integrate with your application, you probably want to call
- %% application:start(pooler) after having specified appropriate
- %% configuration for the pooler application (either via a config file
- %% or appropriate calls to the application module to set the
- %% application's config).
- %%
- -module(pooler).
- -behaviour(gen_server).
- -include("pooler.hrl").
- -include_lib("eunit/include/eunit.hrl").
- %% type specs for pool metrics
- -type metric_value() :: 'unknown_pid' |
- non_neg_integer() |
- {'add_pids_failed', non_neg_integer(), non_neg_integer()} |
- {'inc',1} |
- 'error_no_members'.
- -type metric_type() :: 'counter' | 'histogram' | 'history' | 'meter'.
- %% ------------------------------------------------------------------
- %% API Function Exports
- %% ------------------------------------------------------------------
- -export([accept_member/2,
- start_link/1,
- take_member/1,
- take_group_member/1,
- return_group_member/2,
- return_group_member/3,
- return_member/2,
- return_member/3,
- pool_stats/1,
- manual_start/0,
- new_pool/1,
- rm_pool/1]).
- %% ------------------------------------------------------------------
- %% gen_server Function Exports
- %% ------------------------------------------------------------------
- -export([init/1,
- handle_call/3,
- handle_cast/2,
- handle_info/2,
- terminate/2,
- code_change/3]).
- %% To help with testing internal functions
- -ifdef(TEST).
- -compile([export_all]).
- -endif.
- %% ------------------------------------------------------------------
- %% API Function Definitions
- %% ------------------------------------------------------------------
- start_link(#pool{name = Name} = Pool) ->
- gen_server:start_link({local, Name}, ?MODULE, Pool, []).
- manual_start() ->
- application:start(sasl),
- application:start(pooler).
- %% @doc Start a new pool described by the proplist `PoolConfig'. The
- %% following keys are required in the proplist:
- %%
- %% <dl>
- %% <dt>`name'</dt>
- %% <dd>An atom giving the name of the pool.</dd>
- %% <dt>`init_count'</dt>
- %% <dd>Number of members to add to the pool at start. When the pool is
- %% started, `init_count' members will be started in parallel.</dd>
- %% <dt>`max_count'</dt>
- %% <dd>Maximum number of members in the pool.</dd>
- %% <dt>`start_mfa'</dt>
- %% <dd>A tuple of the form `{Mod, Fun, Args}' describing how to start
- %% new pool members.</dd>
- %% </dl>
- %%
- %% In addition, you can specify any of the following optional
- %% configuration options:
- %%
- %% <dl>
- %% <dt>`group'</dt>
- %% <dd>An atom giving the name of the group this pool belongs
- %% to. Pools sharing a common `group' value can be accessed using
- %% {@link take_group_member/1} and {@link return_group_member/2}.</dd>
- %% <dt>`cull_interval'</dt>
- %% <dd>Time between checks for stale pool members. Specified as
- %% `{Time, Unit}' where `Time' is a non-negative integer and `Unit' is
- %% one of `min', `sec', `ms', or `mu'. The default value of `{1, min}'
- %% triggers a once per minute check to remove members that have not
- %% been accessed in `max_age' time units. Culling can be disabled by
- %% specifying a zero time vaule (e.g. `{0, min}'. Culling will also be
- %% disabled if `init_count' is the same as `max_count'.</dd>
- %% <dt>`max_age'</dt>
- %% <dd>Members idle longer than `max_age' time units are removed from
- %% the pool when stale checking is enabled via
- %% `cull_interval'. Culling of idle members will never reduce the pool
- %% below `init_count'. The value is specified as `{Time, Unit}'. Note
- %% that timers are not set on individual pool members and may remain
- %% in the pool beyond the configured `max_age' value since members are
- %% only removed on the interval configured via `cull_interval'. The
- %% default value is `{30, sec}'.</dd>
- %% <dt>`member_start_timeout'</dt>
- %% <dd>Time limit for member starts. Specified as `{Time,
- %% Unit}'. Defaults to `{1, min}'.</dd>
- %% </dl>
- new_pool(PoolConfig) ->
- pooler_sup:new_pool(PoolConfig).
- %% @doc Terminate the named pool.
- rm_pool(PoolName) ->
- pooler_sup:rm_pool(PoolName).
- %% @doc For INTERNAL use. Adds `MemberPid' to the pool.
- -spec accept_member(atom() | pid(), pid() | {noproc, _}) -> ok.
- accept_member(PoolName, MemberPid) ->
- gen_server:call(PoolName, {accept_member, MemberPid}).
- %% @doc Obtain exclusive access to a member from `PoolName'.
- %%
- %% If no free members are available, 'error_no_members' is returned.
- %%
- -spec take_member(atom() | pid()) -> pid() | error_no_members.
- take_member(PoolName) when is_atom(PoolName) orelse is_pid(PoolName) ->
- gen_server:call(PoolName, take_member, infinity).
- %% @doc Take a member from a randomly selected member of the group
- %% `GroupName'. Returns `MemberPid' or `error_no_members'. If no
- %% members are available in the randomly chosen pool, all other pools
- %% in the group are tried in order.
- -spec take_group_member(atom()) -> pid() | error_no_members | {error_no_group, atom()}.
- take_group_member(GroupName) ->
- case pg2:get_local_members(GroupName) of
- {error, {no_such_group, GroupName}} ->
- {error_no_group, GroupName};
- [] ->
- error_no_members;
- Pools ->
- %% Put a random member at the front of the list and then
- %% return the first member you can walking the list.
- {_, _, X} = erlang:now(),
- Idx = (X rem length(Pools)) + 1,
- {PoolPid, Rest} = extract_nth(Idx, Pools),
- take_first_pool([PoolPid | Rest])
- end.
- take_first_pool([PoolPid | Rest]) ->
- case take_member(PoolPid) of
- error_no_members ->
- take_first_pool(Rest);
- Member ->
- ets:insert(?POOLER_GROUP_TABLE, {Member, PoolPid}),
- Member
- end;
- take_first_pool([]) ->
- error_no_members.
- %% this helper function returns `{Nth_Elt, Rest}' where `Nth_Elt' is
- %% the nth element of `L' and `Rest' is `L -- [Nth_Elt]'.
- extract_nth(N, L) ->
- extract_nth(N, L, []).
- extract_nth(1, [H | T], Acc) ->
- {H, Acc ++ T};
- extract_nth(N, [H | T], Acc) ->
- extract_nth(N - 1, T, [H | Acc]);
- extract_nth(_, [], _) ->
- error(badarg).
- %% @doc Return a member that was taken from the group
- %% `GroupName'. This is a convenience function for
- %% `return_group_member/3' with `Status' of `ok'.
- -spec return_group_member(atom(), pid() | error_no_members) -> ok.
- return_group_member(GroupName, MemberPid) ->
- return_group_member(GroupName, MemberPid, ok).
- %% @doc Return a member that was taken from the group `GroupName'. If
- %% `Status' is `ok' the member is returned to the pool from which is
- %% came. If `Status' is `fail' the member will be terminated and a new
- %% member added to the appropriate pool.
- -spec return_group_member(atom(), pid() | error_no_members, ok | fail) -> ok.
- return_group_member(_, error_no_members, _) ->
- ok;
- return_group_member(_GroupName, MemberPid, Status) ->
- case ets:lookup(?POOLER_GROUP_TABLE, MemberPid) of
- [{MemberPid, PoolPid}] ->
- return_member(PoolPid, MemberPid, Status);
- [] ->
- ok
- end.
- %% @doc Return a member to the pool so it can be reused.
- %%
- %% If `Status' is 'ok', the member is returned to the pool. If
- %% `Status' is 'fail', the member is destroyed and a new member is
- %% added to the pool in its place.
- -spec return_member(atom() | pid(), pid() | error_no_members, ok | fail) -> ok.
- return_member(PoolName, Pid, Status) when is_pid(Pid) andalso
- (is_atom(PoolName) orelse
- is_pid(PoolName)) andalso
- (Status =:= ok orelse
- Status =:= fail) ->
- gen_server:call(PoolName, {return_member, Pid, Status}, infinity),
- ok;
- return_member(_, error_no_members, _) ->
- ok.
- %% @doc Return a member to the pool so it can be reused.
- %%
- -spec return_member(atom() | pid(), pid() | error_no_members) -> ok.
- return_member(PoolName, Pid) when is_pid(Pid) andalso
- (is_atom(PoolName) orelse is_pid(PoolName)) ->
- gen_server:call(PoolName, {return_member, Pid, ok}, infinity),
- ok;
- return_member(_, error_no_members) ->
- ok.
- %% @doc Obtain runtime state info for all pools.
- %%
- %% Format of the return value is subject to change.
- -spec pool_stats(atom() | pid()) -> [tuple()].
- pool_stats(PoolName) ->
- gen_server:call(PoolName, pool_stats).
- %% ------------------------------------------------------------------
- %% gen_server Function Definitions
- %% ------------------------------------------------------------------
- -spec init(#pool{}) -> {'ok', #pool{}, 0}.
- init(#pool{}=Pool) ->
- #pool{init_count = N} = Pool,
- MemberSup = pooler_pool_sup:member_sup_name(Pool),
- Pool1 = set_member_sup(Pool, MemberSup),
- %% This schedules the next cull when the pool is configured for
- %% such and is otherwise a no-op.
- Pool2 = cull_members_from_pool(Pool1),
- {ok, NewPool} = init_members_sync(N, Pool2),
- %% trigger an immediate timeout, handled by handle_info to allow
- %% us to register with pg2. We use the timeout mechanism to ensure
- %% that a server is added to a group only when it is ready to
- %% process messages.
- {ok, NewPool, 0}.
- set_member_sup(#pool{} = Pool, MemberSup) ->
- Pool#pool{member_sup = MemberSup}.
- handle_call(take_member, {CPid, _Tag}, #pool{} = Pool) ->
- {Member, NewPool} = take_member_from_pool(Pool, CPid),
- {reply, Member, NewPool};
- handle_call({return_member, Pid, Status}, {_CPid, _Tag}, Pool) ->
- {reply, ok, do_return_member(Pid, Status, Pool)};
- handle_call({accept_member, Pid}, _From, Pool) ->
- {reply, ok, do_accept_member(Pid, Pool)};
- handle_call(stop, _From, Pool) ->
- {stop, normal, stop_ok, Pool};
- handle_call(pool_stats, _From, Pool) ->
- {reply, dict:to_list(Pool#pool.all_members), Pool};
- handle_call(dump_pool, _From, Pool) ->
- {reply, Pool, Pool};
- handle_call(_Request, _From, Pool) ->
- {noreply, Pool}.
- -spec handle_cast(_,_) -> {'noreply', _}.
- handle_cast(_Msg, Pool) ->
- {noreply, Pool}.
- -spec handle_info(_, _) -> {'noreply', _}.
- handle_info(timeout, #pool{group = undefined} = Pool) ->
- %% ignore
- {noreply, Pool};
- handle_info(timeout, #pool{group = Group} = Pool) ->
- ok = pg2:create(Group),
- ok = pg2:join(Group, self()),
- {noreply, Pool};
- handle_info({'DOWN', MRef, process, Pid, Reason}, State) ->
- State1 =
- case dict:find(Pid, State#pool.all_members) of
- {ok, {_PoolName, _ConsumerPid, _Time}} ->
- do_return_member(Pid, fail, State);
- error ->
- case dict:find(Pid, State#pool.consumer_to_pid) of
- {ok, {MRef, Pids}} ->
- IsOk = case Reason of
- normal -> ok;
- _Crash -> fail
- end,
- lists:foldl(
- fun(P, S) -> do_return_member(P, IsOk, S) end,
- State, Pids);
- error ->
- State
- end
- end,
- {noreply, State1};
- handle_info(cull_pool, Pool) ->
- {noreply, cull_members_from_pool(Pool)};
- handle_info(_Info, State) ->
- {noreply, State}.
- -spec terminate(_, _) -> 'ok'.
- terminate(_Reason, _State) ->
- ok.
- -spec code_change(_, _, _) -> {'ok', _}.
- code_change(_OldVsn, State, _Extra) ->
- {ok, State}.
- %% ------------------------------------------------------------------
- %% Internal Function Definitions
- %% ------------------------------------------------------------------
- do_accept_member({Ref, Pid},
- #pool{
- all_members = AllMembers,
- free_pids = Free,
- free_count = NumFree,
- starting_members = StartingMembers0,
- member_start_timeout = StartTimeout
- } = Pool) when is_pid(Pid) ->
- %% make sure we don't accept a timedout member
- StartingMembers = remove_stale_starting_members(Pool, StartingMembers0,
- StartTimeout),
- case lists:keymember(Ref, 1, StartingMembers) of
- false ->
- %% a pid we didn't ask to start, ignore it.
- %% should we log it?
- Pool;
- true ->
- StartingMembers1 = lists:keydelete(Ref, 1, StartingMembers),
- MRef = erlang:monitor(process, Pid),
- Entry = {MRef, free, os:timestamp()},
- AllMembers1 = store_all_members(Pid, Entry, AllMembers),
- Pool#pool{free_pids = Free ++ [Pid],
- free_count = NumFree + 1,
- all_members = AllMembers1,
- starting_members = StartingMembers1}
- end;
- do_accept_member({Ref, _Reason}, #pool{starting_members = StartingMembers0,
- member_start_timeout = StartTimeout} = Pool) ->
- %% member start failed, remove in-flight ref and carry on.
- StartingMembers = remove_stale_starting_members(Pool, StartingMembers0,
- StartTimeout),
- StartingMembers1 = lists:keydelete(Ref, 1, StartingMembers),
- Pool#pool{starting_members = StartingMembers1}.
- -spec remove_stale_starting_members(#pool{}, [{reference(), erlang:timestamp()}],
- time_spec()) -> [{reference(), erlang:timestamp()}].
- remove_stale_starting_members(Pool, StartingMembers, MaxAge) ->
- Now = os:timestamp(),
- MaxAgeSecs = time_as_secs(MaxAge),
- lists:filter(fun(SM) ->
- starting_member_not_stale(Pool, Now, SM, MaxAgeSecs)
- end, StartingMembers).
- starting_member_not_stale(Pool, Now, {_Ref, StartTime}, MaxAgeSecs) ->
- case secs_between(StartTime, Now) < MaxAgeSecs of
- true ->
- true;
- false ->
- error_logger:error_msg("pool '~s': starting member timeout", [Pool#pool.name]),
- send_metric(Pool, starting_member_timeout, {inc, 1}, counter),
- false
- end.
- init_members_sync(N, #pool{name = PoolName} = Pool) ->
- Self = self(),
- StartTime = os:timestamp(),
- StartRefs = [ {pooler_starter:start_member(Pool, Self), StartTime}
- || _I <- lists:seq(1, N) ],
- Pool1 = Pool#pool{starting_members = StartRefs},
- case collect_init_members(Pool1) of
- timeout ->
- error_logger:error_msg("pool '~s': exceeded timeout waiting for ~B members",
- [PoolName, Pool1#pool.init_count]),
- error({timeout, "unable to start members"});
- #pool{} = Pool2 ->
- {ok, Pool2}
- end.
- collect_init_members(#pool{starting_members = []} = Pool) ->
- Pool;
- collect_init_members(#pool{member_start_timeout = StartTimeout} = Pool) ->
- Timeout = time_as_millis(StartTimeout),
- receive
- {accept_member, {Ref, Member}} ->
- collect_init_members(do_accept_member({Ref, Member}, Pool))
- after
- Timeout ->
- timeout
- end.
- -spec take_member_from_pool(#pool{}, {pid(), term()}) ->
- {error_no_members | pid(), #pool{}}.
- take_member_from_pool(#pool{init_count = InitCount,
- max_count = Max,
- free_pids = Free,
- in_use_count = NumInUse,
- free_count = NumFree,
- consumer_to_pid = CPMap,
- starting_members = StartingMembers0,
- member_start_timeout = StartTimeout} = Pool,
- From) ->
- send_metric(Pool, take_rate, 1, meter),
- StartingMembers = remove_stale_starting_members(Pool, StartingMembers0,
- StartTimeout),
- NumCanAdd = Max - (NumInUse + NumFree + length(StartingMembers)),
- case Free of
- [] when NumCanAdd =< 0 ->
- send_metric(Pool, error_no_members_count, {inc, 1}, counter),
- send_metric(Pool, events, error_no_members, history),
- {error_no_members, Pool};
- [] when NumCanAdd > 0 ->
- %% Limit concurrently starting members to init_count. Add
- %% up to init_count members. Starting members here means
- %% we always return an error_no_members for a take request
- %% when all members are in-use. By adding a batch of new
- %% members, the pool should reach a steady state with
- %% unused members culled over time (if scheduled cull is
- %% enabled).
- NumToAdd = min(InitCount - length(StartingMembers), NumCanAdd),
- Pool1 = add_members_async(NumToAdd, Pool),
- send_metric(Pool, error_no_members_count, {inc, 1}, counter),
- send_metric(Pool, events, error_no_members, history),
- {error_no_members, Pool1};
- [Pid|Rest] ->
- Pool1 = Pool#pool{free_pids = Rest, in_use_count = NumInUse + 1,
- free_count = NumFree - 1},
- send_metric(Pool, in_use_count, Pool1#pool.in_use_count, histogram),
- send_metric(Pool, free_count, Pool1#pool.free_count, histogram),
- {Pid, Pool1#pool{
- consumer_to_pid = add_member_to_consumer(Pid, From, CPMap),
- all_members = set_cpid_for_member(Pid, From,
- Pool1#pool.all_members)
- }}
- end.
- %% @doc Add `Count' members to `Pool' asynchronously. Returns updated
- %% `Pool' record with starting member refs added to field
- %% `starting_members'.
- add_members_async(Count, #pool{starting_members = StartingMembers} = Pool) ->
- StartTime = os:timestamp(),
- StartRefs = [ {pooler_starter:start_member(Pool), StartTime}
- || _I <- lists:seq(1, Count) ],
- Pool#pool{starting_members = StartRefs ++ StartingMembers}.
- -spec do_return_member(pid(), ok | fail, #pool{}) -> #pool{}.
- do_return_member(Pid, ok, #pool{all_members = AllMembers} = Pool) ->
- clean_group_table(Pid, Pool),
- case dict:find(Pid, AllMembers) of
- {ok, {MRef, CPid, _}} ->
- #pool{free_pids = Free, in_use_count = NumInUse,
- free_count = NumFree} = Pool,
- Pool1 = Pool#pool{free_pids = [Pid | Free], in_use_count = NumInUse - 1,
- free_count = NumFree + 1},
- Entry = {MRef, free, os:timestamp()},
- Pool1#pool{all_members = store_all_members(Pid, Entry, AllMembers),
- consumer_to_pid = cpmap_remove(Pid, CPid,
- Pool1#pool.consumer_to_pid)};
- error ->
- Pool
- end;
- do_return_member(Pid, fail, #pool{all_members = AllMembers} = Pool) ->
- % for the fail case, perhaps the member crashed and was alerady
- % removed, so use find instead of fetch and ignore missing.
- clean_group_table(Pid, Pool),
- case dict:find(Pid, AllMembers) of
- {ok, {_MRef, _, _}} ->
- Pool1 = remove_pid(Pid, Pool),
- add_members_async(1, Pool1);
- error ->
- Pool
- end.
- clean_group_table(_MemberPid, #pool{group = undefined}) ->
- ok;
- clean_group_table(MemberPid, #pool{group = _GroupName}) ->
- ets:delete(?POOLER_GROUP_TABLE, MemberPid).
- % @doc Remove `Pid' from the pid list associated with `CPid' in the
- % consumer to member map given by `CPMap'.
- %
- % If `Pid' is the last element in `CPid's pid list, then the `CPid'
- % entry is removed entirely.
- %
- -spec cpmap_remove(pid(), pid() | free, dict()) -> dict().
- cpmap_remove(_Pid, free, CPMap) ->
- CPMap;
- cpmap_remove(Pid, CPid, CPMap) ->
- case dict:find(CPid, CPMap) of
- {ok, {MRef, Pids0}} ->
- Pids1 = lists:delete(Pid, Pids0),
- case Pids1 of
- [_H|_T] ->
- dict:store(CPid, {MRef, Pids1}, CPMap);
- [] ->
- %% no more members for this consumer
- erlang:demonitor(MRef, [flush]),
- dict:erase(CPid, CPMap)
- end;
- error ->
- % FIXME: this shouldn't happen, should we log or error?
- CPMap
- end.
- % @doc Remove and kill a pool member.
- %
- % Handles in-use and free members. Logs an error if the pid is not
- % tracked in state.all_members.
- %
- -spec remove_pid(pid(), #pool{}) -> #pool{}.
- remove_pid(Pid, Pool) ->
- #pool{name = PoolName,
- all_members = AllMembers,
- consumer_to_pid = CPMap} = Pool,
- case dict:find(Pid, AllMembers) of
- {ok, {MRef, free, _Time}} ->
- % remove an unused member
- erlang:demonitor(MRef, [flush]),
- FreePids = lists:delete(Pid, Pool#pool.free_pids),
- NumFree = Pool#pool.free_count - 1,
- Pool1 = Pool#pool{free_pids = FreePids, free_count = NumFree},
- exit(Pid, kill),
- send_metric(Pool1, killed_free_count, {inc, 1}, counter),
- Pool1#pool{all_members = dict:erase(Pid, AllMembers)};
- {ok, {MRef, CPid, _Time}} ->
- %% remove a member being consumed. No notice is sent to
- %% the consumer.
- erlang:demonitor(MRef, [flush]),
- Pool1 = Pool#pool{in_use_count = Pool#pool.in_use_count - 1},
- exit(Pid, kill),
- send_metric(Pool1, killed_in_use_count, {inc, 1}, counter),
- Pool1#pool{consumer_to_pid = cpmap_remove(Pid, CPid, CPMap),
- all_members = dict:erase(Pid, AllMembers)};
- error ->
- error_logger:error_report({{pool, PoolName}, unknown_pid, Pid,
- erlang:get_stacktrace()}),
- send_metric(Pool, events, unknown_pid, history),
- Pool
- end.
- -spec store_all_members(pid(),
- {reference(), free | pid(), {_, _, _}}, dict()) -> dict().
- store_all_members(Pid, Val = {_MRef, _CPid, _Time}, AllMembers) ->
- dict:store(Pid, Val, AllMembers).
- -spec set_cpid_for_member(pid(), pid(), dict()) -> dict().
- set_cpid_for_member(MemberPid, CPid, AllMembers) ->
- dict:update(MemberPid,
- fun({MRef, free, Time = {_, _, _}}) ->
- {MRef, CPid, Time}
- end, AllMembers).
- -spec add_member_to_consumer(pid(), pid(), dict()) -> dict().
- add_member_to_consumer(MemberPid, CPid, CPMap) ->
- %% we can't use dict:update here because we need to create the
- %% monitor if we aren't already tracking this consumer.
- case dict:find(CPid, CPMap) of
- {ok, {MRef, MList}} ->
- dict:store(CPid, {MRef, [MemberPid | MList]}, CPMap);
- error ->
- MRef = erlang:monitor(process, CPid),
- dict:store(CPid, {MRef, [MemberPid]}, CPMap)
- end.
- -spec cull_members_from_pool(#pool{}) -> #pool{}.
- cull_members_from_pool(#pool{cull_interval = {0, _}} = Pool) ->
- %% 0 cull_interval means do not cull
- Pool;
- cull_members_from_pool(#pool{init_count = C, max_count = C} = Pool) ->
- %% if init_count matches max_count, then we will not dynamically
- %% add capacity and should not schedule culling regardless of
- %% cull_interval config.
- Pool;
- cull_members_from_pool(#pool{name = PoolName,
- free_count = FreeCount,
- init_count = InitCount,
- in_use_count = InUseCount,
- cull_interval = Delay,
- max_age = MaxAge,
- all_members = AllMembers} = Pool) ->
- MaxCull = FreeCount - (InitCount - InUseCount),
- Pool1 = case MaxCull > 0 of
- true ->
- MemberInfo = member_info(Pool#pool.free_pids, AllMembers),
- ExpiredMembers =
- expired_free_members(MemberInfo, os:timestamp(), MaxAge),
- CullList = lists:sublist(ExpiredMembers, MaxCull),
- lists:foldl(fun({CullMe, _}, S) -> remove_pid(CullMe, S) end,
- Pool, CullList);
- false ->
- Pool
- end,
- schedule_cull(PoolName, Delay),
- Pool1.
- -spec schedule_cull(PoolName :: atom() | pid(),
- Delay :: time_spec()) -> reference().
- %% @doc Schedule a pool cleaning or "cull" for `PoolName' in which
- %% members older than `max_age' will be removed until the pool has
- %% `init_count' members. Uses `erlang:send_after/3' for light-weight
- %% timer that will be auto-cancelled upon pooler shutdown.
- schedule_cull(PoolName, Delay) ->
- DelayMillis = time_as_millis(Delay),
- %% use pid instead of server name atom to take advantage of
- %% automatic cancelling
- erlang:send_after(DelayMillis, PoolName, cull_pool).
- -spec member_info([pid()], dict()) -> [{pid(), member_info()}].
- member_info(Pids, AllMembers) ->
- [ {P, dict:fetch(P, AllMembers)} || P <- Pids ].
- -spec expired_free_members(Members :: [{pid(), member_info()}],
- Now :: {_, _, _},
- MaxAge :: time_spec()) -> [{pid(), free_member_info()}].
- expired_free_members(Members, Now, MaxAge) ->
- MaxMicros = time_as_micros(MaxAge),
- [ MI || MI = {_, {_, free, LastReturn}} <- Members,
- timer:now_diff(Now, LastReturn) >= MaxMicros ].
- %% Send a metric using the metrics module from application config or
- %% do nothing.
- -spec send_metric(Pool :: #pool{},
- Label :: atom(),
- Value :: metric_value(),
- Type :: metric_type()) -> ok.
- send_metric(#pool{metrics_mod = pooler_no_metrics}, _Label, _Value, _Type) ->
- ok;
- send_metric(#pool{name = PoolName, metrics_mod = MetricsMod}, Label, Value, Type) ->
- MetricName = pool_metric(PoolName, Label),
- MetricsMod:notify(MetricName, Value, Type),
- ok.
- -spec pool_metric(atom(), atom()) -> binary().
- pool_metric(PoolName, Metric) ->
- iolist_to_binary([<<"pooler.">>, atom_to_binary(PoolName, utf8),
- ".", atom_to_binary(Metric, utf8)]).
- -spec time_as_secs(time_spec()) -> non_neg_integer().
- time_as_secs({Time, Unit}) ->
- time_as_micros({Time, Unit}) div 1000000.
- -spec time_as_millis(time_spec()) -> non_neg_integer().
- %% @doc Convert time unit into milliseconds.
- time_as_millis({Time, Unit}) ->
- time_as_micros({Time, Unit}) div 1000.
- -spec time_as_micros(time_spec()) -> non_neg_integer().
- %% @doc Convert time unit into microseconds
- time_as_micros({Time, min}) ->
- 60 * 1000 * 1000 * Time;
- time_as_micros({Time, sec}) ->
- 1000 * 1000 * Time;
- time_as_micros({Time, ms}) ->
- 1000 * Time;
- time_as_micros({Time, mu}) ->
- Time.
- secs_between({Mega1, Secs1, _}, {Mega2, Secs2, _}) ->
- (Mega2 - Mega1) * 1000000 + (Secs2 - Secs1).
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